EP1052538A1 - Masternegativfilm und herstellungsverfahren und vorrichtung dazu - Google Patents

Masternegativfilm und herstellungsverfahren und vorrichtung dazu Download PDF

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Publication number
EP1052538A1
EP1052538A1 EP99951158A EP99951158A EP1052538A1 EP 1052538 A1 EP1052538 A1 EP 1052538A1 EP 99951158 A EP99951158 A EP 99951158A EP 99951158 A EP99951158 A EP 99951158A EP 1052538 A1 EP1052538 A1 EP 1052538A1
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EP
European Patent Office
Prior art keywords
film
master negative
negative film
guard band
reproduction
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP99951158A
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English (en)
French (fr)
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EP1052538B1 (de
EP1052538A4 (de
Inventor
Tadao Sony Corporation FUJITA
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Sony Corp
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Sony Corp
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Publication of EP1052538A1 publication Critical patent/EP1052538A1/de
Publication of EP1052538A4 publication Critical patent/EP1052538A4/de
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B31/00Associated working of cameras or projectors with sound-recording or sound-reproducing means
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B7/00Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
    • G11B7/28Re-recording, i.e. transcribing information from one optical record carrier on to one or more similar or dissimilar record carriers
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B7/00Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
    • G11B7/002Recording, reproducing or erasing systems characterised by the shape or form of the carrier
    • G11B7/003Recording, reproducing or erasing systems characterised by the shape or form of the carrier with webs, filaments or wires, e.g. belts, spooled tapes or films of quasi-infinite extent
    • G11B7/0032Recording, reproducing or erasing systems characterised by the shape or form of the carrier with webs, filaments or wires, e.g. belts, spooled tapes or films of quasi-infinite extent for moving-picture soundtracks, i.e. cinema
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B7/00Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
    • G11B7/24Record carriers characterised by shape, structure or physical properties, or by the selection of the material
    • G11B7/26Apparatus or processes specially adapted for the manufacture of record carriers

Definitions

  • the present invention relates to a master negative film forming device, a master negative film forming method and a master negative film, and can be suitably applied to the case of recording digital audio data onto movie film for example.
  • the digital audio data track 4 of this movie film 1 is composed of multiple blocks representing one bit data per one block, and comprised of line synchronization pattern 8, tracking pattern 9, main signal pattern 10 and azimuth detection pattern 11.
  • the line synchronization pattern 8 is comprised of multiple blocks for 2 rows in the longitudinal direction of the film and shows whether signal elements exist or not in the main signal pattern 10 in a column direction perpendicularly intersecting to the longitudinal direction of the film. In the case of Fig. 9, two blocks in each column of the line synchronization pattern 8 are unexposed and this shows that signal elements of the main signal pattern 10 exist in each column direction.
  • the tracking pattern 9 is comprised of multiple blocks for four rows in the longitudinal direction of the film. And this is the checkered pattern showing the exposed part and unexposed part for 2 blocks in each column shifted by a half block with respect to each block of the line synchronization pattern 8.
  • the main signal pattern 10 is formed of multiple blocks of eight rows in the longitudinal direction of the film on the same level as the line synchronization pattern 8. Digital audio data is recorded on eight blocks in each column, and the azimuth detection pattern 11 for two rows of blocks having the same checkered pattern as the tracking pattern 9 is adapted to appear at the starting point of each frame picture 2.
  • guard band 12 having the prescribed width is formed in the row and column directions between blocks in the line synchronization pattern 8, the tracking pattern 9 and the main signal pattern 10, which prevents signal elements of a block from the interference (cross-talk) with those of the neighboring blocks in the row and column direction.
  • the movie film reproduction device 15 In the case of reproducing such movie film 1, while the movie film reproduction device 15 runs the movie film 1 run in the direction shown by an arrow at the prescribed speed, as shown in Fig. 10, it radiates the light source light from the light source 20 to the frame picture 2 of the movie film 1 sequentially frame by frame to project it on a screen 22 as the moving picture via a lens 21.
  • the movie film reproduction device 15 radiates the light source light from the light source 23 to the digital audio data track 4 of the movie film 1 and captures the transmission light of the digital audio data track 4 at the readout timing when the guard band 12 of the tracking pattern 9 in the column direction becomes center in the light receiving area (Fig. 9) of the CCD camera 25.
  • the movie film reproduction device 15 outputs an output signal of the CCD camera 25 obtained via the tracking pattern 9 to the tracking adjusting circuit 26.
  • the tracking adjusting circuit 26, forming a tracking control signal S1 based on the output signal of the CCD camera 25 and by transmitting this to the CCD camera 25, conducts the tracking adjustment in order that the ratio of upper two blocks of the exposed part and lower two blocks of the unexposed part become equal centering around the guard band 12 of the tracking pattern 9 in the column direction.
  • the movie film reproduction device 15 outputs the digital audio data of the main signal pattern 10 captured by the CCD camera 25 to a digital conversion circuit 27 while conducting the tracking control within light receiving area by the CCD camera 25.
  • the digital conversion circuit 27 converts this digital audio data into an analog audio signal and after amplifying this to the prescribed level through an audio signal output circuit 28, outputs sound from a speaker 29.
  • the movie film 1 is a positive film to be formed by performing optical contact printing on master negative film and blank film which has no picture recorded thereon. Its forming process is that firstly digital audio data is recorded on master negative film at a prescribed gray value (recording density), and after, by performing the contact printing on the master negative film and blank film are contact-printed, the digital audio data is transferred to a positive film, which is blank film, at a proper gray value.
  • the gray value density
  • the gray value is a value representing a degree of darkness of film.
  • the proper density is a value of the time when digital audio data to be optically transferred to positive film is recorded at such density as to be correctly read by the reproduction device, and is previously set taking the properties of negative and positive film, the size of digital audio data, the functions of the reproduction device and other conditions into consideration.
  • the movie film forming device 40 runs a blank film on which nothing is recorded, in the direction shown by an arrow A and moreover, runs a negative film 31 on which digital audio data is recorded, in the same direction as the arrow A at the same speed, and radiates the light source light with the predetermined radiation intensity to the blank film 30 from the light source 32 via the digital audio data track in order to record the digital audio data onto the blank film 30 at the aforementioned proper gray value.
  • the movie film forming device 40 records the digital audio data on the blank film 30 and at the same time, runs the negative film 33 on which the still picture is recorded, in the same direction as the arrow A, and by radiating the light source light from the light source 34 to the blank film 30 via the frame of the negative film 33, records multiple still pictures onto the blank film 30 frame by frame.
  • the movie film forming device 40 records still pictures and digital audio data on the blank film 30 to form a positive film 35, and displays this on the screen as the movie film 1 via the movie film reproduction device 15 (Fig. 10).
  • a signal level in the tracking pattern 9 of the positive film 35 captured by the CCD camera 25 of the movie film reproduction device 15 drops to the level D, almost close to 0 because the area of unexposed part (easy to transmit the light) is decreased by the erosion of blurs.
  • the movie film reproduction device 15 cannot obtain any signal element from the tracking pattern 9 even when the timing of the readout from the light receiving area (Fig. 9) of the CCD camera 25 is shifted a little in the longitudinal direction of the film. And this caused a problem that it was difficult to conduct the tracking adjustment (the readout timing adjustment so that the CCD camera 25 can read the center of a column of the main signal pattern 10 within the light receiving area).
  • the positive film 35 when the printing is conducted at the lower gray value than the proper value based on the negative film 31 since the exposed part is not fully exposed to light, the area of the unexposed part (easy to transmit the light) is increased as a whole, and, as a result, the signal level of the output signal of the CCD camera 25 goes up to the level E.
  • the tracking pattern 9 and the main signal pattern 10 are printed at the same gray value when the positive film 35 is formed, the signal level of the output signal in the main signal pattern 10 of the CCD camera 25 and the signal level of the output signal in the tracking pattern 9 are almost changed together according to the gray value.
  • the movie film reproduction device 15 in the case of binary-judging "1" and "0" of the digital audio data read out from the main signal pattern 10 of the positive film 35, binary data is to be judged by using the signal level obtained from the tracking pattern 9 when printing is conducted at the proper gray value as the threshold level A shown in Fig. 14 in the digital analog conversion circuit 27.
  • the threshold level A in the tracking pattern 9 becomes slightly lower than the ideal threshold level (Fig. 13) at the time when the main signal pattern "1" and "0" is judged taking the existence of exposed guard band 12 into consideration.
  • the threshold level A when binary judging "1" and "0" of the digital audio data recorded in the main signal pattern 10.
  • the gray value is extremely lower than the proper value and the signal level is increased to E level, it is necessary to increase the threshold level A when binary judging "1" and "0" of the digital audio data.
  • the present invention has been done considering the above points and is proposing a master negative film forming device, a master negative forming method and a master negative film capable of forming reproduction film having stable reproduction characteristics constantly with a simple construction and method.
  • the master negative film when the master negative film on which data is recorded is exposed at the predetermined gray value to transfer the data to the reproduction film, multiple exposed areas and unexposed areas having prescribed shapes are arranged alternately.
  • the readout pattern having guard bands between an exposed area and an unexposed area, on the master negative film as a pattern for controlling the readout timing of the data transferred to the reproduction film the width of guard band is controlled based on the gray value, thereby the signal level to be obtained from unexposed areas of the readout pattern transferred to the reproduction film is to keep the fixed relative value with respect to the signal level to be obtained from the data part transferred to the reproduction film.
  • the width of the guard band is controlled based on the gray value in order that the signal level to be obtained from the unexposed areas of the readout pattern transferred onto the reproduction film keeps the fixed relative value with respect to the signal level to be obtained from the data part transferred onto the reproduction film.
  • the area of unexposed area can be controlled within the area even the quantity of the blur of the exposed area changes according to the gray value of the formed reproduction film, and the data can be read out correctly based on the fixed signal level obtained from the unexposed area.
  • the master negative film for transferring prerecorded data onto the reproduction film at the predetermined gray value multiple exposed areas and unexposed areas having the prescribed shapes are arranged alternately, and at the time when the readout pattern having guard bands between each exposed area and each unexposed area is formed as a pattern for controlling the readout timing of the data, since the width of the guard band is controlled according to the gray value, the signal level to be obtained from unexposed area of the readout pattern transferred onto the reproduction film is to keep the fixed relative value with respect to the signal level to be obtained from the data part transferred onto the reproduction film.
  • the width of guard band is controlled according to the gray value so that the signal level to be obtained from the unexposed area of the readout pattern transferred onto the reproduction film keeps the fixed relative value with respect to the signal level to be obtained from the data part transferred onto the reproduction film. Accordingly, even if the amount of the blur of the exposed area changes according to the gray value of the reproduction film, the area of unexposed part is controlled within the fixed area and the data can be correctly read out based on the fixed signal level obtained from the unexposed area.
  • 50 generally shows a master negative film forming device and this forms a master negative film 67 necessary for forming positive film.
  • This master negative film forming device 50 reads out digital audio data D51 with the digital audio data reproduction device 51, with a control signal S65A transmitted from a system controller 65 of an encoder 64 as a starting time, and transmits the digital audio data D51 to a sampling rate conversion unit 52.
  • the sampling rate conversion unit 52 converts the sampling frequency of the digital audio data D51 into the predetermined sampling frequency set in the master negative film forming device 50, and transmits this to an encoding circuit 53 as audio data D52.
  • the encoding circuit 53 compression-encodes the audio data D52 with a predetermined method and transmits the resultant to an error detection/correction 54 as audio data D53.
  • the error detection/correction 54 adds bits for error detection/correction to the audio data D53 and outputs this to a channel coding circuit 55 as audio data D54.
  • the channel coding circuit 55 after conducting the processing such as interchanging the sequence of the audio data D54, outputs the resultant to a light emitting diode (LED) driving circuit 56 as audio data D55.
  • LED light emitting diode
  • the system controller 65 supplies control signal S65B to a camera system controller 57.
  • the camera system controller 57 drives the LED driving circuit 56 at the time when receiving the control signal S65B, thereby controlling the radiation time (starting time and time of duration) of LED 60 comprised of multiple luminous elements in accordance with the audio data D55 and moreover, controlling a film supply reel 71 and a film take-up reel 72 of a recording section 66 via a reel servo unit 58.
  • the master negative film 67 run at the prescribed speed through guide rollers of a guide unit 73.
  • the radiation light emitted from the LED 60A and 60B provided in the guide unit 73 goes through optical fiber cables 74A and 74B and is dispersed by slits 75A and 75B shown in Fig. 3A which are provided at the tips of the respective cables. Then, the dispersed lights radiate on the running master negative film 67 through lens 76A and 76B.
  • the recording section can have such a configuration that each optical fiber cables is comprised of a bunch of plural optical fibers and the plural optical fibers are arranged in a column at its tip instead of the slit. In this condition, lights emitted from the optical fiber are emitted at intervals (rigidly, intervals of thickness in an external circumferential coding part of each optical fiber ⁇ 2).
  • the slits 75A and 75B connected to the LED 60A and 60B by optical fiber cables 74A and 74B are arranged on the both sides in the width direction of the master negative film 67 as shown in Figs. 3A and 3B. And with this arrangement, the digital audio data track can be toned along the external part of perforations arranged on the both edges of the master negative film 67.
  • the recording section 66 by controlling the radiation time of multiple luminous elements in the LED 60A and 60B based on the audio data D55, digital audio data is recorded along both external sides of perforations of the master negative film 67, and also by controlling the radiation time of multiple luminous elements in the LED 60A and 60B, the line synchronization pattern and the tracking pattern are recorded and the master negative film is formed.
  • the system controller 65 (Fig. 1) outputs control signals S65A and S65B based on the control data D61 supplied from the video data reproduction device 61, and thus, image and sound can be matched to each other and be recorded.
  • the system controller 65 controls the width of guard band of the tracking pattern taking the gray value of the time of transfer to the positive film into consideration.
  • the guard band of the positive film is a exposed part, so the amount of erosion by blur spreading out to the unexposed part from the guard band increases in the case of transferring from the master negative film at the high gray value.
  • the system controller 65 is to previously form the width of guard band narrower than the fixed value when forming the master negative film 67.
  • the system controller 65 forms the tracking pattern having the guard band 78 with narrower width than the fixed value at the time when forming the master negative film 67 based on the amount of erosion of blur that is determined depending on the degree of gray value.
  • system controller 65 forms only the width of guard band 78 of the master negative film 67 narrower but it always keeps guard band in order to prevent the interference between the exposed part and the unexposed part.
  • the system controller 65 makes only the width of the guard band 78 in the tracking pattern of the master negative film 67 narrow but keeps the width of guard band in the main signal pattern unchanged as it is defined.
  • the system controller 65 prevents blocks of the main signal pattern from interfering by blur when the positive film 68 is formed at the high gray value. And thus, it prevents ill effect (such as darkness measurement and readout errors in signal part) to the signal characteristics of the time when the data is read out from the positive film 68 in reproduction.
  • the system controller 65 since the more the gray value increases, the amount of erosion by blur becomes larger, the system controller 65 stores a table for forming the guard band 78 having the optimum width on the master negative film 67 corresponding to the gray value of the positive film 68, in the internal memory (not shown in Fig.), so as to form the guard band 78 having the optimum width corresponding to the gray value of the time when the positive film 68 is formed on the master negative film 67.
  • the movie film forming device 80 runs the blank film 15 and also runs the master negative film 67, as shown in Fig. 5, in which the corresponding parts of Fig. 11 are given the same reference numerals, and by radiating the light source light with the light emitting intensity corresponding to the gray value from the light source 17, forms the positive film 68 printed at the higher gray value than the proper value.
  • the movie film reproduction device 90 radiates the source light from the light source 23 to the digital audio data track of the positive film 68 while running the positive film 68 in the direction shown by an arrow at the fixed speed.
  • the movie film reproduction device 90 can correctly conduct the tracking adjustment based on the output signal of the CCD camera 25 to be obtained from the tracking pattern of the positive film so that the ratio of unexposed parts of upper two blocks and lower two blocks centering around the guard band 79 become equal to each other.
  • the movie film reproduction device 90 can obtain the signal level approximately the same as the threshold level A from the output signal of the CCD camera 25, and thus, binary data of the main signal pattern can be correctly judged based on the threshold level A by the digital analog conversion circuit 27.
  • the movie film reproduction device 90 normalizes the output signal with the peak value at which the output signal has the highest brightness as "1", and conducts the binary judgment using the threshold level A obtained in the tracking pattern. Therefore, the binary judgment can be conducted correctly on the scattering of the quantity of light of the light source 23 and the scattering of transparency degree of the unexposed part.
  • the master negative film forming device 50 forms the guard band 78 with the predetermined width corresponding to the gray value when forming the positive film 68 from the master negative film 67 based on the control of the system controller 65, on the tracking pattern.
  • the system controller 65 previously forms the width of guard band 78 narrower than the fixed value when forming the master negative film 67.
  • the signal level of output signal of the CCD camera 25 to be obtained from the tracking pattern of the positive film 68 is remained at the constant level by the threshold level A with respect to the signal level of the reproduction signal to be obtained from the main signal pattern.
  • the master negative film forming device 50 forms the guard band 78 having the predetermined width corresponding to the gray value when forming the positive film 68 on the tracking pattern of the master negative film 67, the signal level of output signal of the CCD camera 25 to be obtained from the tracking pattern of the positive film 68 formed by using the master negative film 67 can be maintained always as the constant relative value with respect to the signal level of the reproduction signal to be obtained from the main signal pattern.
  • the master negative film forming device 50 forms the guard band 78 having the predetermined width corresponding to the gray value when forming the positive film 68 from the master negative film 67 under the control of the system controller 65 on the tracking pattern
  • the signal level of output signal of the CCD camera 25 to be obtained from the tracking pattern of the positive film 68 can be maintained as the fixed relative value represented by the threshold level A with respect to the signal level of the reproduction signal to be obtained from the main signal pattern when reproducing the positive film 68 formed at the gray value higher than the proper value by using the master negative film 67. Accordingly, the tracking adjustment can be conducted correctly and the digital audio data can be also correctly restored based on the threshold level A.
  • the positive film 68 of this case is printed at the gray value higher than the proper value using the master negative film 67 on which the guard band 78 having the predetermined width corresponding to the gray value is formed, contrast between the exposed part and unexposed part is very clear and scratch marks is not easily put on the dark exposed part.
  • the positive film 68 is printed at the gray value higher than the proper value, the area of unexposed part does not decrease, and since the signal level to be obtained from the unexposed part is kept always as the fixed relative value with respect to the signal level of the reproduction signal, its effects is very small even if the signal level at the time of reproduction drops due to the scratch on the clear unexposed part and the possibility of misoperation in tracking adjustment and binary judgment can be decreased.
  • the embodiment described above has dealt with the case of forming the width of guard band 78 of the master negative film 67 narrower than the fixed value under the control of the system controller 65 of the master negative film forming device 50 in the case where the gray value when forming the positive film 68 is higher than the proper value and the guard band 79 of the positive film 68 becomes an exposed part.
  • the present invention is not only limited to this but also when the guard band 102 of the positive film 101 becomes an unexposed part as shown in Fig. 7, the width of the guard band 103 may be formed wider than the fixed value considering the amount of erosion of blur spreading out from the exposed part corresponding to the gray value at the stage of forming the master negative film 100.
  • the embodiment described above has dealt with the case of making the gray value high when forming the positive film 68 from the master negative film 67.
  • the present invention is not only limited to this but also it can be applied to the case of making the gray value low.
  • the width of the guard band 78 of the master negative film 67 may be formed wider than the fixed value under the control of the system controller 65.
  • the width of guard band 78 of the master negative film 67 may be formed narrower than the fixed value under the control of the system controller 65.
  • the embodiment described above has dealt with the case of controlling the width of guard band 12 of the tracking pattern 9 of the main signal pattern 10 column by column under the control of the system controller 65 and the camera system controller 57 as control means in the case of forming the digital audio data track as the readout pattern on the master negative film 67 by the encoder 64 and the recording section 66 as the readout pattern forming means of the master negative film forming device 50.
  • the present invention is not only limited to this, but also the width of guard band arranged on the azimuth detection pattern 11 appearing every frame may be controlled. In this case, the azimuth detection pattern can be certainly read out and the starting time of each frame can be identified correctly.
  • the area of the unexposed area can be controlled within the fixed area and data can be read out correctly based on the fixed signal level obtained from the unexposed area even though the amount of blur in the exposed area varies according to the gray value of the reproduced film. And thus, a master negative film forming device and a master negative film forming method capable of forming reproduction film constantly having stable reproduction characteristics can be realized.
  • the readout pattern is formed on the master negative film to be used when transferring the data to the reproduction film after exposing at the prescribed gray value
  • the width of guard band is controlled according to the gray value so that the signal level to be obtained from unexposed area of the readout pattern transferred to reproduction film keeps the fixed relative value with respect to the signal level to be obtained from the data part transferred to the reproduction film
  • the area of unexposed area is controlled within the fixed area even though the amount of blur in the exposed area varies corresponding to the gray value of the reproduced film.
  • the data can be read out correctly based on the fixed signal level obtained from unexposed area, and thus, a master negative film for forming the reproduction film constantly having stable reproduction characteristics can be realized.
  • This invention can be utilized for a movie film forming device which record digital audio data on a movie film.
EP99951158A 1998-10-30 1999-10-29 Masternegativfilm und herstellungsverfahren und vorrichtung dazu Expired - Lifetime EP1052538B1 (de)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP31117698 1998-10-30
JP31117698 1998-10-30
PCT/JP1999/006028 WO2000026723A1 (fr) 1998-10-30 1999-10-29 Appareil et procede de production de film negatif original et film negatif original ainsi obtenu

Publications (3)

Publication Number Publication Date
EP1052538A1 true EP1052538A1 (de) 2000-11-15
EP1052538A4 EP1052538A4 (de) 2007-01-10
EP1052538B1 EP1052538B1 (de) 2012-12-12

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EP99951158A Expired - Lifetime EP1052538B1 (de) 1998-10-30 1999-10-29 Masternegativfilm und herstellungsverfahren und vorrichtung dazu

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US (1) US6429922B1 (de)
EP (1) EP1052538B1 (de)
JP (1) JP4366624B2 (de)
WO (1) WO2000026723A1 (de)

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WO2006028386A1 (en) * 2004-09-10 2006-03-16 Rune Bjerkestrand Method for calibration in transference of motion pictures to a photosensitive material
CN1299267C (zh) * 2003-08-18 2007-02-07 索尼株式会社 记录装置和记录方法
FR3097468A1 (fr) * 2019-06-20 2020-12-25 Bernard Bartoli Machine et procede pour l’impression a haute cadence de titres securises
WO2022008058A1 (fr) * 2020-07-09 2022-01-13 Bernard Bartoli Machine et procédé pour l'impression à haute cadence de titres sécurisés

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GB2423433B (en) * 2003-11-13 2009-08-05 Rune Bjerkestrand Device for recording full picture frames onto a photosensitive material
NO20043791D0 (no) * 2004-09-09 2004-09-09 Rune Bjerkestrand Method and device for recording soundtracks onto film

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CN1299267C (zh) * 2003-08-18 2007-02-07 索尼株式会社 记录装置和记录方法
WO2006028386A1 (en) * 2004-09-10 2006-03-16 Rune Bjerkestrand Method for calibration in transference of motion pictures to a photosensitive material
GB2433669A (en) * 2004-09-10 2007-06-27 Rune Bjerkestrand Method for calibration in transference of motion pictures to a photosensitive material
GB2433669B (en) * 2004-09-10 2010-05-05 Rune Bjerkestrand Method for calibration in transference of motion pictures to a photosensitive material
US7723665B2 (en) 2004-09-10 2010-05-25 Rune Bjerkestrand Method for calibration in transference of motion pictures to a photosensitive material
FR3097468A1 (fr) * 2019-06-20 2020-12-25 Bernard Bartoli Machine et procede pour l’impression a haute cadence de titres securises
WO2022008058A1 (fr) * 2020-07-09 2022-01-13 Bernard Bartoli Machine et procédé pour l'impression à haute cadence de titres sécurisés

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JP4366624B2 (ja) 2009-11-18
WO2000026723A1 (fr) 2000-05-11
EP1052538A4 (de) 2007-01-10
US6429922B1 (en) 2002-08-06

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